颜笑鹏
博士 、助理研究员
基本信息
| 办公电话:18810735202 | 电子邮件: xpyan1@bjtu.edu.cn |
| 通讯地址:北京市海淀区北京交通大学机械工程楼 | 邮编:100044 |
教育背景
工作经历
2021年8月-2024年7月,北京工业大学,材制学部。
2024年7月-2025年7月,北京建筑大学,机电学院。
2025年7月-至今,北京交通大学,机电学院。
研究方向
招生专业
科研项目
1. 新型柱塞泵-马达一体化单元的关键特性研究——国家自然科学基金(主持)2. 微型伺服阀间隙磨损与伺服补偿技术研究——北京市教委一般项目(主持)
3. 海水反渗透淡化能量回收的关键技术研究——北京市博士后基金(主持)
4. 水导精密激光切割系统的关键技术研究——朝阳区博士后基金(主持)
5. 基于飞轮储能新型液压动力单元实验研究——湖北省科技创新基金(主持)
教学工作
论文/期刊
1.Yan
Xiaopeng,
Chen Baijin*,
Zhang Dongwei, Wu Chenxing, Luo
WanXian. An
energy-saving method to reduce the installed power of hydraulic press machines.
Journal of Cleaner Production, 2019, 233: 538-545. (Type:
SCI 1区,
IF 11.072, Top期刊)
2.Yan
Xiaopeng,
Chen Baijin*.
Analysis of a novel energy-efficient system with 3-D vertical structure for
hydraulic press. Energy, 2021(218), 119518. (Type:
SCI 1区,
IF:8.857, top期刊)
3.Yan
Xiaopeng,
Chen Baijin*.
Analysis of a novel energy-efficient system with a bidirectional supercharger
for forging hydraulic press. Journal of Cleaner Production, 2021(286), 125520. (Type:
SCI 1区,
IF 11.072, top期刊)
4.Yan
Xiaopeng, Songlin Nie*. A
novel energy-efficient transmission system and control strategy for hydraulic
press machines. International Journal of Energy Research, 2022. (Type:
SCI 1区,
IF:5.669, top期刊)
5.Yan
Xiaopeng, Songlin Nie*,
Chen Baijin, et
al. Energy optimization of main hydraulic system in a forging press by
simulation and experimental methods. Energy, 2023. (Type:
SCI 1区,
IF:8.857, top期刊)
6.Yan
Xiaopeng,
Songlin Nie*,
Chen Baijin, et
al. Strategies to improve the energy efficiency of hydraulic power unit with
flywheel energy storage system. Journal of energy storage, 2022. (Type:
SCI 1区,
IF 8.928,
top期刊)
7.Yan
Xiaopeng,
Chen Baijin*.
Energy efficiency improvement and processing performance optimization of
forging hydraulic presses based on an energy-saving buffer system. Applied
Sciences, applsci-882960. (Type: SCI 2区, IF 2.993)
8.Yan Xiaopeng, Chen Baijin*. Analysis of a novel automatic control approach for the free forging hammer. Applied Sciences, applsci-1034171. (Type: SCI 2区, IF 2.993)
9.Wei Hou, Xiaopeng Yan*, et al. Dynamics Model and Analysis of Tracked Vehicle Steering System. International Conference on Transportation and Civil Engineering . 2022. (Type: 交通类顶会EI)
10.Tiangang Zou, Xiaopeng Yan*, et al. Modeling and performance analysis of tracked vehicle with coupled pump-motor steering system based on Matlab. International Conference on Transportation and Civil Engineering. 2022. (Type:交通类顶会EI)
11.Wei Hou, Xiaopeng Yan*, et al. Research on slope steering characteristics of tracked vehicle based on MATLAB/Simulink. International Conference on Transportation and Civil Engineering. 2022. (Type:交通类顶会EI)
12.Chengxing Wu, Baijin Chen, Chunsheng Ye, Xiaopeng Yan. Modeling the Influence of Oil Film, Position and Orientation Parameters on the Accuracy of a Laser Triangulation Probe. Sensors, 2019, 19(8): 1844.(Type: SCI 2区, IF:3.647)
13.颜笑鹏, 陈柏金. 锻造液压机生产过程参数监测系统. 第十六届全国塑形工程学会年会.
14.颜笑鹏, 陈柏金等. 双向增压系统加工特性研究. 锻压技术,2020, 47(03): 191-197. (中文核心)
15.颜笑鹏, 陈柏金等. 锻造液压机立式排布液压机系统节能潜力研究. 锻压装备与制造技术, 2020, 26-29. (中文核心)
专著/译著
专利
1. 一种单横梁缸动式的锻造液压机 (授权公布号:ZL109175180B)
2. 一种缸动式复合液压缸(授权公布号:ZL201810534178)
3. 一种自由锻造液压机极其控制方法(授权公布号:ZL201810533179)
4. 一种基于自激振荡的后混式混流器(授权公布号:ZL2022112267501)
5. 一种水导激光水射流稳定增强耦合装置(授权公布号:ZL2023107423152)